The present invention relates to a self-emulsifiable composition including a monoacyl phospholipid, a diacyl phospholipid, oils and fats, and a polyhydric alcohol, in which the content ratio between the monoacyl phospholipid and the diacyl phospholipid is in the range of monoacyl phospholipid:diacyl phospholipid=1:9 to 9:1 as a mass ratio.

A novel oleogel is provided comprising an edible oil in an amount of at least 95 wt % combined with a binary wax blend in an amount of less than 5 wt % of the oleogel, wherein the oleogel exhibits less than 10% oiling off and a back-extrusion hardness of greater than 100 g-force. The edible oil may be a high oleic acid-containing oil, such as a vegetable oil having a total monounsaturated fatty acid content of at least about 25% by wt. The binary wax blend may comprise at least two waxes selected from rice bran wax, carnauba wax, candelilla wax, sunflower wax, jojoba oil wax, corn oil wax, sugarcane wax, ouricury wax, beeswax and retamo wax. The oleogel provides an edible fat substitute prepared from oil having a reduced saturated fatty acid and trans fatty acid content that may be incorporated in a variety of food products.

Disclosed is a nano-emulsion formulation of saffron and a method of preparation thereof. The method includes the steps of triturating saffron with liquid nitrogen. Preparing an ultrasonic assisted extract in a polar or non-polar solvent. Preparing a nano-emulsion using the extract and one or more surfactants, including tween and span.

This invention relates generally to cellulose nanocrystal-based emulsions that can serve as a spray adjuvant for improved agrochemical application efficiency. More particularly, the cellulose nanocrystal-based emulsions are nanocellulose-stabilized Pickering emulsions having a semi-liquid formulation of colloidal cellulose nanocrystals and biopolymers that can substitute currently used surfactants and drift reducing agents in agrochemicals. The cellulose nanocrystal-based emulsions are suitable with both water soluble and oil soluble active ingredient chemistries, and the shear characteristics of the emulsions make them suitable for oil in water-based spray applications. Droplet size distribution can be tuned by changing the ingredient concentrations, thus helping control particle drift. Moreover, a stable cross-linked network formation facilitates the entrapment and encapsulation of volatile agrochemical chemistries, thus preventing their volatilization and reducing vapor drift.

A process for making olive oil having a high polyphenol content and, in particular a high hydroxytyrosol content, comprises the conventional steps of transforming (II) olives (1) into an oily must (5); of resolving (V) the later into an oily juice (7), from which a base olive oil (8) is obtained, and into an aqueous juice (6) containing most of the polyphenols; and of separating (VII) the vegetation water (9) from the aqueous juice (6). Moreover, according to the invention, steps are provided of removing water (XV) from the vegetation water (9), preferably by evaporation, so as to obtain a polyphenol-enriched concentrate (11); and of mixing (XIX) the concentrate (11) with the base olive oil (8), so as to transfer said polyphenols from the former to the latter and to obtain a final polyphenol-enriched oil (12), along with an exhausted concentrate (11′). The step of removing water causes a polyphenol concentration increase, to enhance their interphase transfer, and, at the same time, it causes a viscosity and density increase, which makes the water phase, during the contact with the oil, less prone to form emulsions than the methods of prior art. The high polyphenol concentration remarkably improves the organoleptic quality of the oil and makes the latter more stable, besides producing well-known advantageous effects for the consumer's health. According to further aspects of the invention, an apparatus is provided for making such oils, as well as a concentrate for use in olive oils and also in any other vegetable or animal food oil, in cosmetics, bio-repellent products and the like.

The present invention relates to food compositions, in particular soft food compositions comprising amorphous porous particles, the amorphous porous particles comprising sweetener, bulking agent and surfactant. Further aspects of the invention relate to a spread having an enhanced sweetness perception and a process for manufacturing a food composition having a soft texture.

The present invention relates to a shelf-stable cooking-aid for coating and flying a food product in one step for example in a heating pan, the cooking aid comprising 3-28 wt % oil, 20-60 wt % water, 2.3-5.5 wt % modified starch, 3-15 wt % salt, 0.5-30 wt % sugar and 0.5-30 wt % flavorings and wherein the cooking aid has a viscosity in the range of 8 to 60 Pa.Math.s at a shear rate of 1s.sup.−1 at 25° C., and the oil and water are in form of an emulsion. Further aspects of the invention are the method for making said cooking-aid as well as a method for coating and flying a food product in a heated pan or heated surface.

The disclosure provides a method of obtaining an isolated phospholipid enriched krill composition. The method includes a) contacting a crude krill composition with an alcohol in an amount sufficient to provide a phospholipid enriched layer and a non-phospholipid enriched layer; b) forming a phospholipid enriched layer and a non-phospholipid enriched layer, wherein the phospholipid enriched layer is above the non-phospholipid enriched layer; c) isolating the phospholipid enriched layer and the non-phospholipid enriched layer; and d) removing the alcohol from the phospholipid enriched layer to provide an isolated phospholipid enriched krill composition.

A fat/oil composition containing fine food particles, having good spreadability even under a low or high temperature is provided. The fat/oil composition containing fine food particles has a fine food particle content of 25-90 mass %, a total fat/oil content of 10-70 mass %, a modal diameter of 0.3-200 μm after ultrasonication, a sugar content of 15-60 mass %, and a moisture content of 20 mass % or less, and satisfies at least one of a stress measured with a dynamic viscoelasticity measuring device under a certain condition is 0.2 N or less, a loss tangent measured with a dynamic viscoelasticity measuring device under a certain condition is 1.000 or more and a value measured at 20° C. and 10 seconds with a Bostwick viscometer is 0.1-20 cm.

A fat/oil composition containing fine food particles, having good spreadability even under a low or high temperature is provided. The fat/oil composition containing fine food particles has a fine food particle content of 25-90 mass %, a total fat/oil content of 10-70 mass %, a modal diameter of 0.3-200 μm after ultrasonication, a sugar content of 15-60 mass %, and a moisture content of 20 mass % or less, and satisfies at least one of a stress measured with a dynamic viscoelasticity measuring device under a certain condition is 0.2 N or less, a loss tangent measured with a dynamic viscoelasticity measuring device under a certain condition is 1.000 or more and a value measured at 20° C. and 10 seconds with a Bostwick viscometer is 0.1-20 cm.